Impedance of free space

Impedance of free space

The impedance of free space, Z0, is a physical constant relating the magnitudes of the electric and magnetic fields of electromagnetic radiation travelling through free space. That is, Z0 = |E|/|H|, where |E| is the electric field strength and |H| magnetic field strength. Its value is approximately 376.73031 ohms.

The impedance of free space equals the product of the vacuum permeability or magnetic constant μ0 and the speed of light in a vacuum c0. Since the numerical values of the magnetic constant and of the speed of light are fixed by the definitions of the ampere and the metre respectively, the exact value of the impedance of free space is likewise fixed by definition and is not subject to experimental error.

Contents

Terminology

The analogous quantity for a plane wave travelling through a dielectric medium is called the intrinsic impedance of the medium, and designated η (eta). Hence Z0 is sometimes referred to as the intrinsic impedance of free space,[1] and given the symbol η0.[2] It has numerous other synonyms, including:

  • wave impedance of free space,[3]
  • the vacuum impedance,[4]
  • intrinsic impedance of vacuum,[5]
  • characteristic impedance of vacuum,[6]
  • wave resistance of free space.[7]

Relation to other constants

From the above definition, and the plane wave solution to Maxwell's equations,

Z_0 = \frac{E}{H} = \mu_0 c_0 = \sqrt{\frac{\mu_0}{\varepsilon_0}} = \frac{1}{\varepsilon_0 c_0}

where

μ0 = the magnetic constant
ε0 = the electric constant and
c0 = the speed of light in free space.[8][9]

The reciprocal of Z_{0}\ is sometimes referred to as the admittance of free space, and represented by the symbol Y_{0}\ .

Exact value

Since 1948, the SI unit ampere has been defined by choosing the numerical value of μ0 to be exactly 4π×10−7 H/m. Similarly, since 1983 the SI metre has been defined by choosing the value of c0 to be 299 792 458 m/s. Consequently

Z_{0} = \mu_{0} c_0 = 119.9169832 \; \pi \ \Omega exactly,

or

Z_{0} \approx 376.730\ 313\ 461\ 77 \ldots \Omega. This situation may change if the ampere is redefined in 2015.

120π-approximation

It is very common in textbooks and learned papers to substitute the approximate value 120π for Z0. This is equivalent to taking the speed of light to be 3×108 m/s. For example, Cheng 1989 states[2] that the radiation resistance of a Hertzian dipole is

R_{r} \approx 80 \pi^{2} \left( \frac{\ell}{\lambda}\right)^{2} [not exact]

This practice may be recognized from the resulting discrepancy in the units of the given formula. Consideration of the units, or more formally dimensional analysis, may be used to restore the formula to a more exact form—in this case to

R_{r} = \frac{2 \pi}{3} Z_{0} \left( \frac{\ell}{\lambda}\right)^{2}

See also

References and notes

  1. ^ Haslett, Christopher J. (2008). Essentials of radio wave propagation. The Cambridge wireless essentials series. Cambridge University Press. p. 29. ISBN 9780521875653. http://books.google.co.uk/books?id=rx-1YAmPZycC. 
  2. ^ a b David K Cheng (1989). Field and wave electromagnetics (Second Edition ed.). New York: Addison-Wesley. ISBN 0201128195. http://books.google.com/books?as_isbn=0201128195. 
  3. ^ Guran, Ardéshir; Mittra, Raj; Moser, Philip J. (1996). Electromagnetic wave interactions. Series on stability, vibration, and control of systems. World Scientific. p. 41. ISBN 9789810226299. http://books.google.co.uk/books?id=xY3ed--JZFAC. 
  4. ^ Clemmow, P. C. (1973). An introduction to electromagnetic theory. University Press. p. 183. ISBN 9780521098151. http://books.google.co.uk/books?id=ahQ7AAAAIAAJ. 
  5. ^ Kraus, John Daniel (1984). Electromagnetics. McGraw-Hill series in electrical engineering. McGraw-Hill. p. 396. ISBN 9780070354234. http://books.google.co.uk/books?id=CSJRAAAAMAAJ. 
  6. ^ Cardarelli, François (2003). Encyclopaedia of scientific units, weights, and measures: their SI equivalences and origins. Springer. p. 49. ISBN 9781852336820. http://books.google.co.uk/books?id=GV1aV7V7I00C. 
  7. ^ Ishii, Thomas Koryu (1995). Handbook of Microwave Technology: Applications. Academic Press. p. 315. ISBN 9780123746979. http://books.google.co.uk/books?id=p8EO7N8qDNcC. 
  8. ^ With ISO 31-5, NIST and the BIPM have adopted the notation c0 for the speed of light in free space.
  9. ^ "Current practice is to use c0 to denote the speed of light in vacuum according to ISO 31. In the original Recommendation of 1983, the symbol c was used for this purpose." Quote from NIST Special Publication 330, Appendix 2, p. 45

Further reading


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